The goal of this project is to collect and analyze samples from lake, stream, wild rice paddy, and experimental field sites across a spectrum of sulfate concentrations and wild rice plant abundance. The scientific information developed will be part of the evidence used by the MPCA in its decision as to whether or not a change to the existing sulfate standard is necessary, and if so, what the revised standard should be.
The MPCA is undertaking a study to investigate the potential effects of elevated sulfate on the growth of wild rice. One high-priority hypothesis is that the conversion of sulfate to sulfide in anoxic subsurface sediment may harm the roots of wild rice, either directly, or indirectly. The goal of this project is To observe and develop an understanding of exposure of wild rice roots to changes in concentration of sulfide and related chemicals over time and space (depth of sediment and distance from roots).
This project will provide lab analyses and interpretation required for 2012 wild rice field survey. The 2012 lab analyses will be merged with the 2011 field survey data and determine what additional work, if any, is needed during the 2013 field season.
The MDH Environmental Laboratory provides essential analyses of water for the MPCA Wild Rice Standards Study, which is gathering information about the effects of sulfate on the growth of wild rice. For this study, the lab developed a ultra-sensitive test for hydrogen sulfide, which greatly facilitated the research. For this large study, the lab staff analyzed several thousand water and sediment samples from lakes, wetlands, rivers, rice paddies, experimental mesocosms, and hydroponic experiments.
Assesss current data sources and preliminary information about the conditions in the watershed and present the information through bibliographies, abstracts and memos.
Phase 2 of the Wild Rice River Watershed Restoration and Protection Strategy (WRAPS) project includes: continued civic engagement; production of the Total Maximum Daily Load (TMDL) study, which allocates pollutant load reductions for impaired waters; and production of the WRAPS report, which identifies implementation strategies that will maintain or improve water quality in many lakes and streams throughout the watershed.
This project builds on the successful implementation of previous work, installing 29 water and sediment control basins and 25 acres of vegetative filter strips within the priority Marsh Creek watershed to reduce sediment loading into the Wild Rice River, which is currently not meeting water quality standards for sediment.
A total of 62 grade stabilization structures and 13.5 miles of continuous berms will be constructed and become a permanent part of County Ditches 9 and 10. An additional 100 acres of buffers will be seeded beyond those required by law. Together these practices will reduce peak flows into the county ditches, provide better erosion control, reduce sediment, improve water quality and reduce future drainage system maintenance costs. The project will reduce 595 tons of sediment per year from the CD 9 & 10 watersheds to the Rabbit River. This is 18 percent of the Rabbit River TMDL goal.
The WinLaC Prioritization and Public Participation Project will identify priority water quality issues and concerns for the watershed approach in the Mississippi River - Winona and La Crescent watersheds. Information obtained from this project will help develop the Watershed Restoration and Protection Strategy (WRAPS) Update report as well the WinLaC Comprehensive Watershed Management Plan.
This grant will fund about 45 projects in High Groundwater Priority areas, High Surface Water Priority area, and/or in sub-watershed with stressed/impaired streams for the four WinLaC planning regions. These practices will reduce overland total nitrogen loading and loading to groundwater; reduce overland total phosphorous and sediment; and increase headwater storage and/or reduce peak flow rates and sediment loading.
This project will continue the development of a Pre-Watershed Restoration and Protection Strategy (WRAPS) assessment, evaluation, community outreach and involvement, and development project that will provide for a comprehensive and more successful watershed restoration approach.
This project will produce a final Total Maximum Daily Load (TMDL) report and Watershed Restoration and Projection Strategy (WRAPS) reports for the Winnebago and Mississippi River – La Crescent watersheds including the drafting of public notice versions of the reports, responding to comments during the public notice period and producing the final TMDL and WRAPS reports.
The Winona County Well Sealing Costshare Program will utilize Clean Water Funds to speed water well sealing in a continuing effort to protect the groundwater aquifers used for drinking water in Southeast Minnesota. Since 1990, 1303 unused water supply wells have been sealed in Winona County with costs ranging from $500-$10,000+ per well.
This project will produce a Winter Maintenance Assessment tool prototype that allows users to create a customized approach to modify their existing winter maintenance program that will reduce their road salt use. The tool will allow users to take inventory of their current practices and evaluate how they are doing today and where they have the most potential to reduce salt usage.
The goal of this project is the development of an automated planning tool to complete the Twin Cities Metropolitan Area Chloride Watershed Watershed Restoration and Protection Strategy (WRAPS).
The goal of this project is to maintain and make enhancements to the Winter Maintenance Assessment tool (WMAt), which is a necessary technical resource and planning tool for stakeholders and permittees to implement the chloride reduction strategies described in the Chloride Management Plan. The WMAt is critical for assisting stakeholders in meeting the water quality goals of the Chloride Management Plan without compromising public safety, and allowing for consideration of the varying resources and conditions for each individual winter maintenance program.
Wirth Lake is located in Theodore Wirth Regional Park in the City of Golden Valley. The lake was listed as Impaired due to excessive phosphorus levels. In recent years water quality goals were met except during instances where seasonal overflows from Bassett Creek into Wirth Lake occurred.With one relatively simple project, the Bassett Creek Watershed Management Commission anticipates that the excess phosphorus problem will be resolved once and for all.
Wolverton Creek is a 25 mile long tributary to the Red River of the North. Its watershed drains approximately 105 square miles located in Wilkin and western Clay Counties. Wolverton Creek is the outlet for numerous ditch systems and natural drainage in the area and is a significant contributor of sediment to the Red River. The City of Moorhead and other downstream communities obtain drinking water from the Red River. Since 85% of Moorhead's drinking water comes from the Red River, high turbidity results in
higher treatment costs for their drinking water system.
In partnership with the City of Coon Rapids, the Coon Creek Watershed District will address Coon Creek's aquatic life and recreation impairments by reducing nutrient and bacteria loading attributable to stormwater runoff from an 822-acre urban catchment. The project will retrofit an existing in-line rate control pond with a large iron-enhanced sand filter bench to target dissolved phosphorus, reducing TP loading to Coon Creek by 69 pounds per year. It will also incorporate bio-char into the filter media mixture to reduce E.
This project will allow lake associations and other motivated groups to use their local landowner networks and site specific knowledge to effectively implement best management practices that fit within the greater context of Wright County's Water Management Plan.
The United States Environmental Protection Agency (USEPA) requires the Minnesota Pollution Control Agency (MPCA) to carry out the Total Maximum Daily Load Program (TMDL) in the state of Minnesota. Minnesota has an abundance of lakes and river reaches, many of which will require a TMDL study. In an effort to expedite the completion of TMDL projects, the MPCA has decided to construct watershed models. These models have the potential to support the simultaneous development of TMDL studies for multiple listings within a cataloging unit or 8-digit Hydrologic Unit Code watershed.
This project will monitor four lakes and 18 stream sites within the Yellow Medicine River Watershed to collect surface water quality data to determine the health of the watershed's streams and lakes and if they are in need of restoration or protection strategies. The sites will be monitored according to the Minnesota Pollution Control Agency's (MPCA) Water Monitoring Standard Operating Procedures.
Over the years, the landscape of the Yellow Medicine Watershed has changed through drainage and loss of wetland areas. The Soil and Water Conservation Districts of Lincoln, Lyon and Yellow Medicine counties work cooperatively with the Yellow Medicine River Watershed District to oversee implementation of conservation practices in this watershed. Based on previous Clean Water Partnership diagnostic studies, it is known the river is receiving an excessive loading of nutrients, phosphorus and suspended solids. These conditions have led to declining dissolved oxygen levels as a result.
The Yellow Medicine River Watershed District will contract with the Water Resource Center at the Minnesota State University - Mankato to complete a Geographic Information System (GIS) terrain analysis for the watershed using recently completed LIDAR data in southern Minnesota. Analysis will concentrate on the impaired reaches of the Yellow Medicine River Watershed and its tributaries. This inventory will utilize the State of Minnesota LiDAR elevation datasets to create many datasets through the analysis of this elevation data.
This project will train MPCA field staff in the proper calibration, deployment, maintenance and storage of water quality collection Sondes. Training event will cover general sonde overview, sonde maintenance, calibration procedure, short-term storage, long-term storage and 650MDS overview.
Trained staff will help assure the water chemistry data that is collected is of good quality. After the 1 day training events participants will be able to calibrate sonde water quality monitoring sensors in a lab or field setting, deploy the calibrated sonde to collect water chemistry, store sondes properly during non-field season and perform preventative maintenance or simple troubleshooting actions with the help of tech support. This will be satisfied by two different training events held in 2017.
